Emerging Commercial Mobile Wireless Technology and Standards: Suitable for the Army?

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Changes in how we live and move about will follow.

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Some people may opt to live off-grid part-or even full-time, enabled by sustainable power sources, energy storage systems, water collection and monitoring, repurposing of waste into productive materials and so on. Computers with human-like capabilities will emerge, creating a new set of jobs.


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True telepresence will change the workplace and lifestyles of the labor force. Autonomous vehicles will repurpose commutes and allow asset-lite living. Expect the rapid adoption and deployment of the following catalysts:. These megacities will require new infrastructure and design with the network at the core.

Gartner Top 10 Strategic Technology Trends for 2018

The surge in data-driven activity has only begun. A convergence of technologies enabling Smart Cities are on an accelerated growth curve. We believe the future urban landscape will not only be "smart;" it will be auto-adaptive via artificial intelligence and sensors embedded within the network as well as within services upon the network. The most progressive cities will appear like adaptive organisms.

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Expect the following to be pervasive and increasingly critical to lives and workforce productivity:. Municipalities must be increasingly futuristic and work with communications service providers to build cities of the future. Cities must respond to the increasing demands of enterprises and residents by embedding intelligence and new networks in future design.

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We further speculate that just as cities are competing for growth engine enterprises like Amazon, they may have to compete for talented and skilled residents in the future too. A new landscape of applications and service providers will emerge, and we are ready to enable them. Our technologists and product managers are developing innovations across wired and wireless technologies, network architectures, security and artificial intelligence. Rapidly adopted innovations are often best developed across ecosystems, and we collaborate across industries dependent upon the network of the future to unleash their potential.

If your solution or service depends upon advanced networks, you may be experiencing challenges related to the network or falling short with your customer experience.


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Our innovation lab is dedicated to removing these pain points and obstacles to your success. Each month, we will bring you a new view of our Emerging Technology Timeline in the sequence below:. Think big about your product roadmap and unlock your industry's long-term potential. Check back soon for a new view of how emerging technologies and experiences will affect you and your enterprise. Not enough? Reach out to the authors to learn more. Today Anju takes this approach to answer questions for emerging technologies like AR, VR, MR, AI and how they will work with traditional media, communications and the broader global cable industry.

As Vice President of Market Development and Product Management, Anju leads the team whose charge is to enable transformative end-user experiences, and revolutionize the delivery of new forms of content, while also unleashing massive monetization opportunities. The current trend in private sector communications is toward supporting all IP-based broadband multimedia applications.

One need only witness the mad rush to buy Android-based devices to appreciate this phenomenon. This trend is the result of significant technology advancements in the underlying communications core networks and the mobile devices used by subscribers. This migration improves channel utilization and interoperability, but the supported applications remain mostly narrowband voice centric services. This fragmented spectrum allocation along with the historically site-specific and agency-specific nature of licensing public safety spectrum, lack of governance, small purchasing power of the public safety community and the nature of the public safety vendor community have hindered interoperability and have not allowed economies of scale for user equipment in the same way that private services have expanded.

First responders in emergencies are beginning to recognize video applications and visualized location-based services as mission critical. Such services include applications to exchange data, graphics, and video information that certainly require public safety communications capable of multimedia broadband operations. The term broadband commonly refers to high-speed Internet access.

However, the forthcoming multimedia and data applications require much higher rates than those currently available. Disasters and other incidents are simply requiring reliable communications paths with higher bandwidth requirements. The focus of this article will be on broadband networks and next generation cellular capabilities to support public safety broadband requirements.

The Safecom Program 1 , along with many other resources within the DHS, is an example of numerous programs that have identified applications requiring broadband capabilities that may be useful to emergency responders. For instance, some mission-critical applications require high data rates for broadband operation such as real-time high-quality video from a remote scene and exchanging diagrams or blueprints of building layouts between dispatchers and officers on the scene.

On the other hand, numerous articles have suggested that public safety communications in the future will require broadband connections that accommodate data, still image and video multimedia in addition to the basic mission-critical voice application. The current generation of public safety communications incorporates trunked digital narrowband standards technology such as those outlined in Project 25 2 , but still rely heavily on voice communications using circuit-switched based network architectures.

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Even as the public safety standards community is working on broadband communications through programs such as Project MESA 3 , progress is far slower than the advancement within the commercial sector. Mobile wireless technology has advanced dramatically for commercial and military systems, but this has not been the case in public safety systems. In addition, many public safety agencies nationwide must respond cooperatively to large-scale disasters whether man-made or due to natural causes.

This may require a single common communications system and even communications connecting to private sector broadband networks that hold critical information to help in rescue and relief missions. All of these issues suggest that public safety communications could benefit by adopting standards-based commercial broadband wireless technologies.

Web 2.0 and Emerging Learning Technologies/Different Sectors

Thus, the development of next generation networks NGN for public safety communications should encompass networks that will be broadband, Internet Protocol IP -based and capable of handling multimedia content including voice, data, images and video. Further, and perhaps as important as the communications requirements, is the cost of capital investment for public safety to build a reliable and ubiquitous network. Clearly, public safety could benefit from using the capabilities of next generation commercial cellular systems and as a result one of the simplest approaches may be for emergency responders to adopt commercial wireless type services for their communications networks, as many agencies do today.


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  5. The prior allocation of spectrum for dedicated broadband use in the MHz public safety bands could promote a combined infrastructure for public safety and commercial communications as part of spectrum reallocations of the former MHz TV band. Hence, the FCC has taken an important step towards the development of a nationwide interoperable broadband public safety communications network. In order to achieve these goals for public safety communications services, it is essential for overall operational performance requirements to adopt the appropriate network technology.

    Today anything with a Wi-Fi chip can connect and communicate with anything else on the network. This will allow many students in multiple classrooms to watch and manipulate video clips—at the same time and without the annoying buffering or dropped signals.

    Or doctors could collaborate and consult in real-time on complex surgical cases using mobile devices. But it doesn't stop there: hospitals use Wi-Fi-based systems to help them track equipment, staff and patients, monitor temperatures and humidity and track hygiene. And retailers small and large use similar tracking systems to manage their assets and reduce costs for consumers. Unlicensed frequencies for Wi-Fi and other technologies extend the reach of wireline Internet and cellular technologies. And they give consumers more—more choices to get online, more devices and more applications to use.

    But new business models and new technical standards need the right spectrum. More Wi-Fi in cities can make communities more livable by increasing access to services and dramatically improving communication. Using sensors enabled by unlicensed frequencies and Wi-Fi networks, community leaders can improve building management, enable more efficient traffic flow, and develop new ways to provide basic services like water or waste management.

    Connecting a network of sensors in water systems, environmental monitoring systems, street lights and more, mostly using unlicensed spectrum, will unlock the data and connections community leaders need to improve city services.

    Broadband for better agriculture

    City and state governments face the ultimate challenge: trying to do more with less every year. Administrations must find ways to cut costs while delivering services to citizens. And the possibilities created by faster, more efficient and more robust Wi-Fi are endless. In the near future, wireless connectivity will be embedded in tens of billions of other devices, systems and objects.

    Connecting those objects to a network can be cheap and easy using unlicensed frequencies—but the FCC needs to free up more spectrum for Wi-Fi, especially in frequencies where the signals can travel through walls or across terrain. And the FCC needs to establish rules for this spectrum that encourages companies to invest in these innovations. Broadband Internet is the dominant communications platform of our day.

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